1. NATIONAL INSTITUTE OF TECHNOLOGY
WARANGAL.
PRESENTATION BY….
R.RAGHAVENDRA
CTM, 12568

2. CONTENTS
:
1. INTRODUCTION TO fORm wORk
2. DesIgN ReqUIRemeNTs
3. ClassIfICaTION CRITeRIa
4. JUmp fORm
5. TYpes Of JUmp fORm
6. pROCess effICIeNCY
7. safeTY & sUsTaINaBle feaTURes
8. CONsIDeRaTIONs
9. RefeReNCes

3. INTRODUCTION
:
 For the different construction activities like
 Brick work above 5 ft
 Surface finishing works like plastering, painting, walling etc.
 Renovation, repair and alteration works.
 Roof and slab pouring
Some temporary nature supports and structures are required like
 Formwork (Supporting Structure)
 Scaffoldings (arrangement for working plate forms)
 Shoring (supporting method for unsafe structure)
 Underpinning (Method of strengthening an existing structure’s
footing)

4. WHAT IS
FORMWORK:
 Formwork are temporary structures that are built to
support parts or the whole of a permanent structure until
it is self-supporting.
 Formwork means the surface, support and framing
used to define the shape of concrete until it is self-
supporting.

5. Design Requirements:
• Strength
• Speedy erection and dismantling
• Tightness of joints
• Rigidity
• Reuse
• Ease of handling

6. Classification Criteria for
Formwork :-
o Classification according to size
o Classification according to the location of use
o Classification according to materials of construction
o Classification according to nature of operation
o Classification according to brand name of the product

7. TYPES OF WALL
FORMWORK
(Based on nature of operation)
 JUMP FORM
 SLIP FORM
 TUNNEL FORM

8. JUMP FORM:
 Generally, jump form systems comprise the
formwork and working platforms for cleaning/fixing of
the formwork, steel fixing and concreting.
Jump form, often described as climbing form. It is
suitable for construction of multi-storey vertical concrete
elements in high-rise structures, such as shear walls, core
walls, lift shafts, stair shafts and bridge pylons.
 It is a highly productive system designed to increase
speed and efficiency while minimizing labor and time.

10. TYPES OF JUMP
FORMWORK
 Normal jump/climbing form
 Guided-climbing jump form
 Self-climbing jump form

11. WALL FORMING – JUMP FORM

12. SELF CLIMBING JUMP FORM

13. PROCESS EFFICIENCY :
 Fast construction can be achieved by careful planning of the
construction process. Crane availability is critical for normal jump
form.
 Self-climbing formwork cuts down the requirement for crane time
considerably. By allowing the crane to be used for other
construction work this may reduce the total number of cranes
needed on site.
 The formwork is independently supported, so the shear walls and
core walls can be completed ahead of the rest of the main building
structure. This can help to provide stability to the main structure
during its construction and can have the beneficial effect of taking
the jump form core off the project critical path.

14. CONTINUED…
 High quality surface finishes are possible.
 Climbing forms can be designed to operate in high winds (when
the use of a crane is less viable). This allows construction work to
be carried out at reduced risk from adverse weather.
 The highly engineered nature of jump form systems allows quick
and precise adjustment of the formwork in all planes.
 Some formwork systems can be used at an inclined angle, which
is particularly useful on bridge pylons or where walls vary in
thickness.
 A small but skilled workforce is required on site.
 It is easier to plan construction activities due to the repetitive
nature of the work.

15. SAFETY :
 Working platforms, guard rails, and ladders are built into the
completed units of market-leading formwork systems. Complete
wind-shield protection on platform edges is also possible.
 Self-climbing formwork systems are provided with integral free-
fall braking devices.
 The completed formwork assembly is robust and provides a stable
working platform.
 The reduced use of scaffolding and temporary work platforms
results in less congestion on site.
 The setting rate of concrete in those parts of the structure
supporting the form is critical in determining the rate at which
construction can safely proceed.
 The repetitive nature of the work means that site operatives can
quickly become familiar with health and safety aspects of their
job. Formwork suppliers provide materials and resources to help
train the labour force.

16. SUSTAINABILITY
FEATURES :
 The formwork system is easy to clean and reuse with little
formwork waste generated compared to traditional formwork.
 Climbing formwork systems offer simplicity, safety and cost
effectiveness for certain high-rise building structures.
 The repetitive nature of the work, combined with the engineered
nature of the formwork, allows fine tuning of the construction
operations, which in turn leads to minimal concrete wastage.
 Many repeated uses of formwork are possible before maintenance
or replacement is needed, the number of uses depending on the
quality of the surface finish of concrete specified.

17. CONSIDERATIONS :
 Jump form is typically used on buildings of 5 storey's or
more; fully self-climbing systems are generally used on structures
with more than 20 floor levels.
 Assembly and lifting operations for self-climbing formwork
systems require personnel to be comprehensively trained to ensure
competence.
 The raising operation must be carefully planned and
coordinated, and access to the working area during lifting should
be restricted to essential personnel.

18. REFERENCES
:
 “FORMWORK FOR MODERN, EFFICIENT
CONCRETE CONSTRUCTION” BY Rohan
Rupasinghe and Éanna Nolan, BRE
 WWW.YOUTUBE.COM
 HTTP://EN.WIKIPEDIA.ORG

19. ?
R.RAGHAVENDRA